UV Nail Lamps Safe, Study Suggests

Dec. 6, 2012 -- Widely used UV nail lamps are highly unlikely to cause skin cancer, even if used weekly for 250 years, a new study suggests.

The finding contradicts the feeling of many dermatologists that the devices are as harmful as tanning beds. That feeling is largely based on a 2009 report of skin cancer on the hands of two women with no other obvious skin-cancer risks.

But the new study actually measured radiation from typical nail lamps. The measurements then were used to calculate nail lamps' "carcinogenic effectiveness" by the same method used to establish the safety of medical devices.

"Nail lamps are safe for over 250 years of weekly manicures, and even then there would be a low risk of skin cancer," says study researcher Alina Markova, MD, of Massachusetts General Hospital. "Not 'no risk,' but 'low risk.'"

"This makes me rethink the issue of nail lamp safety," MacKelfresh says. "I'm not ready to say these devices are safe -- we dermatologists want people to avoid UV radiation as much as possible -- but this seems to be low risk, especially if used infrequently."

Nail Lamps' UV Radiation

The study looked at three models of UV nail lamps similar to about 90% of the hundreds of such products available for salon and home use:

Device A, with four 9-watt UV fluorescent bulbs.

Device B, with one 9-watt UV fluorescent bulb.

Device C, with six 1-watt LED lights.

Markova and colleague Martin A. Weinstock, MD, professor of dermatology at Brown University, measured the radiation from a 10-minute session under the lamps, which is more than people typically get in a nail salon.

They compared the cancer-causing potential of each device to a course of treatment with the FDA-approved UV phototherapy devices commonly used by dermatologists. These treatments carry a low cancer risk.

"Over 13,000 Device A or B and more than 40,000 Device C sessions lasting for 10 minutes would be required to be received at the nail salon to equal the UV dose received during one [phototherapy] course," Markova and Weinstock calculate.